Air conditioner

Abstract

A process and the required apparatus for air conditioning the interior of a structure located within a harsh desert like exterior environment. The air conditioning system is particularly effective at times when the exterior temperature is in excess of approximately 90 to 95 degrees Fahrenheit, and the exterior relative humidity is less than approximately 35 to 40 percent. A tube and shell heat exchanger wherein the shell side is wet and the tube side is dry is employed to air condition the interior of the structure. In the operation of the air conditioner, a mass of distributed water, for example, a spray, is established on the wet shell side, and a flow of ambient air is passed through the wet shell side to form a resulting stream of moist air. A flow of ambient air is passed through the dry tube side and a resulting stream of dry cooled air is recovered. The streams of moist and cooled air are combined and the resulting stream of combined air is discharged into the exterior of the structure. The structure is not hermetically sealed so there is little or no pressure difference between the interior of the structure and the surrounding environment. The system requires so little power that it can be operated on a battery system charged from an ambient energy source harvested by, for example, a small wind turbine or an array of conventional 30 volt 4 amp hour solar power cells. The water consumption rate is generally less then approximately 10 percent that of a conventional evaporative cooler. The humidity in the interior of the structure is generally no more than approximately 2 to 2.3 times that of the exterior environment.

Description

RELATED APPLICATION[0001]Applicant claims the benefit U.S. Provisional Application No. 60 / 405,584, filed Aug. 23, 2002.BACKGROUND OF THE INVENTION[0002]1. Field of the Invention[0003]The invention relates in general to low power air conditioning systems, and, in particular, to a low power air conditioning system employing a tube and shell heat exchanger for use in arid conditions.[0004]2. Description of the Prior Art[0005]The provision of air conditioning for structures that are located in arid, high temperature deserts is essential to enjoying a good quality of life, and, in some instances, is essential to supporting life. This is true for both humans and livestock.[0006]In desert environments, daytime temperatures often reach well above 100 degrees Fahrenheit while at the same time the relative humidity is often below 20 percent. Typically, conventional evaporative cooling based air conditioning systems, so called “swamp coolers”, are effective in such conditions, because of the l...

AI Technical Summary

Benefits of technology

[0011]A preferred embodiment of the air conditioning assembly according to the present invention comprises a shell and tube heat exchanger wherein ambient air is forced through both sides and discharged approximately together into the interior of the structure that is to be cooled. For convenience, the air streams from the two sides can be combined into one combined stream before being discharged into the interior of the structure, or they may be discharged separately into the structure. This heat exchanger is particularly suited for use in the high heat and low humidity conditions that are typically found during the summer months in deserts. The air conditioning assembly is particularly effective in situations where the temperature is above approximately 80 degrees Fahrenheit, and the relative humidity is

Problems solved by technology

A source of electrical power is required to operate such systems, so the cost of operation is a limitation on their use.

Conventional evaporative coolers consume considerable quantities of water so their use is limited to areas where water is available.

Sufficient quantities of water are not always available in desert environments.

Other types of air conditioning systems require the use of refrigerants, sealed buildings, expensive and high maintenance equipment, and are expensive to operate.

Typically, such struct

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